Born from a desire to predict the future, epidemiology has largely been limited to studying the past. Now,
computational epidemiology researchers are harnessing computing power to crack the complicated mystery of
how diseases spread. Full story (PDF)
At the molecular level, life already moves fast. In search of a better anticocaine medication, scientists at the University of Kentucky used computer simulations to create a souped-up version of the human enzyme that breaks down the drug even faster. Full story (PDF)
Engineers at the Cornell Laboratory of Ornithology’s Macaulay Library are engaged in a race against time, to convert the world’s largest animal recording collection from analog to digital — before the original tape recordings degrade and are lost forever. But they aren’t alone in their need to preserve massive amounts of information. To preserve its collections, the Macaulay Library is blazing a trail that others will have to follow. Full story (PDF)
Scientists are working to connect genetic data and build the ultimate family tree. Full story (PDF)
People are looking beyond conventional medical treatments for new ways to treat diseases, stay healthy, feel better, and live longer. Millions have embraced a diverse group of approaches termed complementary or alternative medicine. Full story (PDF)
How protein molecules form into useful shapes is unknown. It’s a puzzle called the protein-folding problem, and it’s key to developing treatments for diseases as diverse as Alzheimer’s, Parkinson’s, cataracts, cystic fibrosis, and diabetes’
most common form. Now scientists have taken one small but intriguing step toward solving the protein-folding problem by synthesizing a protein called Top7. Full story (PDF)
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